Issue 79, 2016
From the journal:

Chemical Communications

Separation of carbon dioxide from flue gas by mixed matrix membranes using dual phase microporous polymeric constituents

Ali K. Sekizkardes, ORCID logo *ab   Victor A. Kusuma,ac   Ganpat Dahe,ab   Elliot A. Roth,ab   Lawrence J. Hill,ab   Anne Marti,ab   Megan Macala,ac   Surendar R. Venna*ac  and  David Hopkinsona  

* Corresponding authors

a U.S. Department of Energy National Energy and Technology Laboratory, Pittsburgh, Pennsylvania 15236, USA
E-mail: ali.sekizkardes@netl.doe.gov, Surendar.Venna@netl.doe.gov

b Oak Ridge Institute for Science and Education, Pittsburgh, PA 15236, USA

c AECOM Pittsburgh, PA 15236, USA

Abstract

This study presents the fabrication of a new mixed matrix membrane using two microporous polymers: a polymer of intrinsic microporosity PIM-1 and a benzimidazole linked polymer, BILP-101, and their CO2 separation properties from post-combustion flue gas. 17, 30 and 40 wt% loadings of BILP-101 into PIM-1 were tested, resulting in mechanically stable films showing very good interfacial interaction due to the inherent H-bonding capability of the constituent materials. Gas transport studies showed that BILP-101/PIM-1 membranes exhibit high CO2 permeability (7200 Barrer) and selectivity over N2 (15). The selected hybrid membrane was further tested for CO2 separation using actual flue gas from a coal-fired power plant.

Graphical abstract: Separation of carbon dioxide from flue gas by mixed matrix membranes using dual phase microporous polymeric constituents

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Article information

DOI
https://doi.org/10.1039/C6CC04811K
Article type
Communication
Submitted
10 Jun 2016
Accepted
31 Aug 2016
First published
31 Aug 2016

Chem. Commun., 2016,52, 11768-11771

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Separation of carbon dioxide from flue gas by mixed matrix membranes using dual phase microporous polymeric constituents

A. K. Sekizkardes, V. A. Kusuma, G. Dahe, E. A. Roth, L. J. Hill, A. Marti, M. Macala, S. R. Venna and D. Hopkinson, Chem. Commun., 2016, 52, 11768 DOI: 10.1039/C6CC04811K

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